JPH04232935A - Variable focusing camera - Google Patents

Abstract

PURPOSE:To prevent an advancing key and sublenses from interfering with each other and to minimize a male helicoid member by retracting the sublenses in an opposite direction to the advancing key, which is used for the prevention of the rotation of the male helicoid member, in relation to an optical axis. CONSTITUTION:The advancing key 36 integrated in the camera main body 13 and extended in parallel to the optical axis, prevents the rotation of the male helicoid 1 and guides the male helicoid 1 in the direction of the optical axis at the rotation of a female helicoid 2. A rear lens holder 6 is provided with a set of rear lenses 39 consisting of plural lenses, and is constituted so that it can be inserted into and retracted from the photographic optical axis (in the opposite direction to the advancing key 36 in relation to the photographic optical axis). Therefore, in the condition where the sublenses (rear lenses) 39 are retracted from the photographic optical axis, a photographic optical system of a short focal distance is structured by only the main lens (front lens) 38; in the condition where the sublenses 39 are inserted into the photographic optical axis, a photographic optical system of a long focal distance is constituted of the main lens 38 and the sublenses 39.

Description

[Detailed description of the invention]

0001

[Industrial Application Field] The present invention is applicable to at least two types of focal length photography, such as telephotography in which a sub-lens is inserted on the optical axis of the main lens, and wide-angle photography in which the sub-lens is retracted from the optical axis. Regarding possible variable focus cameras.

0002

2. Description of the Related Art Conventional variable focus cameras of this type generally have a sub-lens that is retracted in a direction perpendicular to the optical axis during wide-angle photography. Further, in a device in which a male helicoid member that integrally holds a photographing optical system is controlled to extend by rotating a female helicoid member, a straight key is provided in the optical axis direction to prevent rotation of the male helicoid member.

0003

However, in the conventional example described above, there is a problem in that the diameter of the male helicoid member cannot be reduced in order to avoid interference between the sub-lens retracted off the optical axis and the linear key.

0004

SUMMARY OF THE INVENTION It is an object of the present invention to solve the problems of the prior art and provide a compact variable focus camera.

That is, according to the present invention, since the sub-lens is retracted to the opposite side of the optical axis from the linear key, interference between the linear key and the sub-lens does not occur, and therefore the diameter of the male helicoid member can be reduced. can.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a longitudinal cross-sectional view of a camera according to an embodiment of the present invention, and FIG. 2 is a cross-sectional view of the camera of FIG. 1.

In these figures, 1 is a male helicoid, 2 is screwed with the male helicoid 1, and has a full-circumference gear part 2 on the outer periphery.
A female helicoid formed with a, and a camera body 13 described later.
are held rotatably engaged. The male helicoid 1, which is screwed into the female helicoid 2 (rotates approximately once with respect to the camera body 13), is equipped with a front element and a shutter unit, which will be described later, which constitute the photographic optical system, and the rotation of the female helicoid 2 causes the male helicoid 1 to It moves linearly on the optical axis using a straight key 36, which will be described later, as a guide. 38 is a front lens consisting of a plurality of lenses fixed to the male helicoid 1; 7 is a shutter base plate; 8 is a shutter blade; 9 is a presser plate; these shutter base plate 7, shutter blades 8, and presser plate 9 constitute a shutter unit. This shutter unit is fixed to the male helicoid 1 by a shutter base plate 7. Reference numeral 6 denotes a rear lens holder, which is equipped with a rear lens 39 made up of a plurality of lenses, and is configured to be insertable and retractable with respect to the photographing optical axis (on the opposite side of the photographing optical axis from a linear key 36, which will be described later). As a result, when the rear lens 39 is retracted from the photographing optical axis, the photographing optical system has a short focal length using only the front lens 38, and when the rear lens 39 is inserted into the photographing optical axis, the front lens 38
8 and the rear lens 39 form a long focal length photographing optical system. Reference numeral 10 denotes a rear lens holder shaft held by the male helicoid 1 so as to be slidable in the optical axis direction, and holds the rear lens holder 6 rotatably in the axial direction without sliding. A compression spring 34 urges the rear lens holder shaft 10 forward in the optical axis direction (to the left in FIG. 2). 35 is a stop washer that serves as a stopper for the compression spring. 37 is a cam fixed to the camera body 13 for inserting and retracting the rear lens 39 with respect to the photographing optical axis, as shown in FIGS. 3 and 4 when the lens barrel is viewed from the rear of the camera (right side in FIG. 1). During wide-angle shooting, the rear lens 39 is located at a position retracted from the optical axis as shown in FIG. 3, and during telephoto shooting, it is inserted onto the optical axis as shown in FIG. Reference numeral 40 denotes a tension spring that urges the rear ball holder 6 to rotate in the counterclockwise direction in FIG.

Further, as shown in detail in FIGS. 3 to 6, the cam 37 is integrally provided with a cam stopper portion 81 having a protruding locking portion 81a, and the locking portion 81a is connected to the rear ball. It is integrally fixed to the end of the holder 6 and can be engaged with the telecontrol stopper part 82. As a result, during focusing during wide shooting, the rear lens holder 6, which includes the front lens 38, shutter base plate 7, and rear lens 39 together with the male helicoid 1, moves straight in the forward optical axis direction, but during focusing during telephoto shooting. During focusing, the rear lens holder 6 resists the compression spring 34 to prevent forward movement in the optical axis direction due to the teleconverter stopper part 82 engaging with the locking part 81a of the stopper part 81 provided on the cam 37. While holding the rear ball holder 6
is left behind by male helicoid 1, and only male helicoid 1 moves forward (FIGS. 4 and 6). That is, during focusing during telephoto shooting, only the front lens 38 and shutter base plate 7 are integrally extended forward, and the rear lens holder 6 is moved forward.
remains held at that position as if it were fixed to the camera body 13.

Reference numeral 3 denotes a barrier operation ring that opens and closes two barriers 4 and 5 in front of the photographic lens. FIG. 7 shows this barrier mechanism as seen from the left side of FIG. 1, that is, from the front of the camera.
An operating knob 3a is integrally provided on the barrier operating ring 3, and the knob 3a can be operated from the front side of the camera. Reference numeral 3b denotes a thin spring portion integrally provided with the barrier operation ring 3, and when the convex portion of the spring portion 3b engages with the concave portion of the engaging portion 1a of the male helicoid 1, the barriers 4 and 5 are opened and closed. I try to give a sense of the click of time. Reference numerals 83 and 84 are tension springs that bias the barriers 4 and 5 to rotate in the closing direction.

Returning to FIGS. 1 and 2, 11 is a decorative plate attached to the front surface of the male helicoid 1 (on the left side of FIGS. 1 and 2), 12 is a front plate, 13 is a camera body, and 14 is an exterior of the camera. It is a cover that forms. 16 is a barrier contact piece that detects the opening and closing of the barriers 4 and 5, which is also shown in FIG. 7; 17 is a flexible printed circuit board that connects the electrical device on the lens barrel side and the electrical device on the camera body side;
The flexible cable holder 7 and 36 are linear keys that are integrally provided on the camera body 13 and extend parallel to the optical axis to prevent the rotation of the male helicoid and align the male helicoid 1 with the optical axis against the rotation of the female helicoid 2. It guides in the linear direction and guides and holds the flexible printed circuit board 17 on the outside thereof. 19 is a DX contact piece, and 31 is a gear holding plate, which are attached to the pivot of a pulse gear 26, which will be described later, for driving the female helicoid 2 provided on the front plate 12. 32 is a pressure plate (not shown) for pressing the film toward the aperture side; 33
is a patrone. 52 is a sprocket having teeth that mesh with perforations of a film (not shown);
3 is a sprocket gear integrated with the sprocket 52.

FIG. 8 is a perspective view showing the drive mechanism of the lens barrel in FIG. , gears 22, 23, 24, 2
The driving force of the motor 20 is transmitted to the pulse gear via the pulse gear 5. The pulse gear 26 is the all-around gear part 2 of the female helicoid 2.
a and drives the female helicoid 2, and a pulse plate 27 is fixed to the upper surface. Reference numeral 30 denotes a pulse contact piece which, in combination with the pulse plate 27, detects the wide end and telephoto end of the male helicoid 1. 28 is a slit plate integrally attached to the pinion gear 21; 29;
is a photointerrupter, and by the combination of the two, the position of the male helicoid 1 in the optical axis direction during focus adjustment can be known by counting the number of pulses.

Next, the operation of the above configuration will be explained.

First, the barrier operation ring 3 is operated from the sunken state (the state in which the male helicoid 1 is retracted to the deepest position) where the barriers 4 and 5 are in the closed state and the main switch of the camera is off. When the barriers 4 and 5 are fully opened, the main switch by the barrier contact piece 16 is turned on, and the motor 20 rotates forward (clockwise in FIG. 8). This results in
The pulse gear 26 rotates via the gears 21 to 25 shown in FIG. 8, and the female helicoid 2 rotates via the full-circumference gear portion 2a. With this rotation, the male helicoid 1 screwed inside the female helicoid 2 moves forward in the optical axis direction (upward in FIG. 8). When the pulse contact piece 30 first detects the pattern 27a of the pulse plate 27 integrated with the pulse gear 26 due to the rotation of the pulse gear 26, the motor 20 is reversely energized for a predetermined period of time and then turned off. This causes the pulse gear 26 to move to B in FIG.
It stops slightly before the pattern 27a shown in FIG. This position is the wide end and the initial position of wide shooting mode (
(focusing standby position). When a shutter release button (not shown) is pressed at this position, the motor 20 rotates in the normal direction again after distance measurement is completed, and the male helicoid 1 equipped with the front lens 38 is drawn out, and focusing by the front lens 38 is started. At this time, the shutter base plate 7 also moves integrally with the male helicoid 1 in the optical axis direction. Also, at this time, the rear ball holder shaft 10 is biased by the compression spring 34 and moves integrally with the male helicoid 1, and the rear ball 39 held by the rear ball holder shaft 10 moves in unison with the male helicoid 1.
The male helicoid 1 also moves in the optical axis direction outside the photographing optical path.

Focusing is completed when male helicoid 1
When it is detected that the camera has reached a predetermined position where the camera is in focus, the motor 20 is turned off. Here, this predetermined position is detected by counting the number of pulses by detecting the slit plate 28, which rotates integrally with the pinion gear 21, using a photointerrupter 29. The count is started by energizing the motor 20 in response to a release signal, turning on the motor 20, starting the rotation of the pulse gear 26, and detecting the pattern 27a of the pulse plate 27 by the pulse contact piece 30.

When focusing is completed and the shutter blade 8 is opened and closed by a drive mechanism (not shown), exposure of the film is completed. Thereafter, the motor 20 is reversely energized, the pulse gear 26 rotates clockwise, and the male helicoid 1 is retracted. Then, the pulse contact piece 30 detects the C position of the pattern 27a, and after a certain period of time, the motor 20 is turned off, thereby being reset to the wide standby position (position B in FIG. 9).

Next, the case of telephotography will be explained. The motor 20 is rotated counterclockwise from the sunken end state to rotate the female helicoid 2. With this rotation, the male helicoid 1 moves forward in the optical axis direction. The pulse gear 26 rotates and the pattern 27a of the pulse plate 27 is rotated by the pulse contact piece 30.
In the same manner as when the motor 20 was stopped at the wide end when it was detected the second time, the motor 20 is reversely energized for a short time and then turned off.
Stop 6. This state is the telephoto end and the initial position (focusing standby position) of the telephoto shooting state. That is, the pulse plate 27 has two parts between the wide end and the tele end.
Rotate.

In this state, the rear ball holder 6 is moved by the cam 37.
is inserted on the optical axis, and both the front lens 38 (ie, main lens) and the rear lens 39 (auxiliary lens) constitute a telephotography optical system.

When focusing is started from this focusing standby position, the front lens 38 and shutter base plate 7 move together in the optical axis direction to the focusing position, as in the case of wide-angle photography described above.

On the other hand, at this time, the teleconverter stopper part 82 engages with the locking part 81a of the stopper part 81 provided on the cam 37, and the rear lens 39 is prevented from moving forward in the optical axis direction. 34, it is left behind from the male helicoid 1 together with the rear ball holder 6, and remains stopped at that position.

In other words, during focusing during telephoto shooting, only the front lens 38 and the shutter base plate 7 are moved forward as one unit, while the rear lens holder 6 remains fixed at that position relative to the camera body 13. Become.

Other operations are the same as in the case of wide-angle photography described above, so explanations will be omitted.

Next, when the lens barrel moves from the wide end to the sunken end position, the motor 20 is reversed by the operation opposite to the above, the pulse gear 26 is rotated clockwise, and the male helicoid 1 is retracted. . When the sinking end position is reached, a sinking end detection switch (not shown) is turned on and the motor 20 is stopped.

Next, when moving from the telephoto end to the sinking end position,
Similarly, the male helicoid 1 is retracted, and when a sinking end detection switch (not shown) is turned on at the sinking end position, the motor 20 is stopped.

[0024]

[Effects of the Invention] As explained above, according to the present invention, since the sub lens is retracted to the opposite side of the straight key and the optical axis, there is no interference between the straight key and the sub lens, so the male helicoid member The diameter can be reduced.

[Brief explanation of the drawing]

FIG. 1 is a longitudinal sectional view of a camera showing an embodiment of the present invention.

FIG. 2 is a cross-sectional view of the camera shown in FIG. 1.

FIG. 3 is an operational diagram of the lens barrel in FIG. 1 in a wide-angle state when viewed from the rear of the camera.

FIG. 4 is an operational diagram of the lens barrel in FIG. 1 in a telephoto state when viewed from the rear of the camera.

FIG. 5 is a diagram showing the relationship between the rear ball holder and the cam in FIG. 1 in a wide state.

FIG. 6 is a diagram showing the relationship between the rear ball holder and the cam in FIG. 1 in a telephoto state.

FIG. 7 is a mechanical diagram of the barrier seen from the front of the camera in FIG. 1.

8 is a perspective view showing a drive mechanism of the lens barrel in FIG. 1. FIG.

FIG. 9 is a diagram illustrating the operation of the pulse plate in FIG. 1.

[Explanation of symbols]

1 Male helicoid 2 Female helicoid 3 Barrier operation ring 3a Operation knob 4, 5 Barrier 6 Rear ball holder 7 Shutter base plate 8 Shutter blade 13 Main body 20 Motor

Claims (1)

[Claims] Claim 1: A main lens and a sub-lens are provided, and the sub-lens moves in and out on the optical axis, allowing for different focal points between imaging using only the main lens and imaging using a combined optical system of the main lens and the sub-lens. This is a camera capable of distance photography, in which the optical system and shutter are integrally held, and the male helicoid member is controlled by the rotation of the female helicoid member. A variable focus camera characterized in that a sub-lens is retracted to the opposite side with respect to the optical axis.